1 /* d10v-opc.c -- D10V opcode list
2 Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2005, 2007
3 Free Software Foundation, Inc.
4 Written by Martin Hunt, Cygnus Support
6 This file is part of the GNU opcodes library.
8 This library is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3, or (at your option)
13 It is distributed in the hope that it will be useful, but WITHOUT
14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
15 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
16 License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this file; see the file COPYING. If not, write to the Free
20 Software Foundation, 51 Franklin Street - Fifth Floor, Boston,
21 MA 02110-1301, USA. */
25 #include "opcode/d10v.h"
28 /* The table is sorted. Suitable for searching by a binary search. */
29 const struct pd_reg d10v_predefined_registers
[] =
31 { "a0", NULL
, OPERAND_ACC0
+0 },
32 { "a1", NULL
, OPERAND_ACC1
+1 },
33 { "bpc", NULL
, OPERAND_CONTROL
+3 },
34 { "bpsw", NULL
, OPERAND_CONTROL
+1 },
35 { "c", NULL
, OPERAND_CFLAG
+3 },
36 { "cr0", "psw", OPERAND_CONTROL
},
37 { "cr1", "bpsw", OPERAND_CONTROL
+1 },
38 { "cr10", "mod_s", OPERAND_CONTROL
+10 },
39 { "cr11", "mod_e", OPERAND_CONTROL
+11 },
40 { "cr12", NULL
, OPERAND_CONTROL
+12 },
41 { "cr13", NULL
, OPERAND_CONTROL
+13 },
42 { "cr14", "iba", OPERAND_CONTROL
+14 },
43 { "cr15", NULL
, OPERAND_CONTROL
+15 },
44 { "cr2", "pc", OPERAND_CONTROL
+2 },
45 { "cr3", "bpc", OPERAND_CONTROL
+3 },
46 { "cr4", "dpsw", OPERAND_CONTROL
+4 },
47 { "cr5", "dpc", OPERAND_CONTROL
+5 },
48 { "cr6", NULL
, OPERAND_CONTROL
+6 },
49 { "cr7", "rpt_c", OPERAND_CONTROL
+7 },
50 { "cr8", "rpt_s", OPERAND_CONTROL
+8 },
51 { "cr9", "rpt_e", OPERAND_CONTROL
+9 },
52 { "dpc", NULL
, OPERAND_CONTROL
+5 },
53 { "dpsw", NULL
, OPERAND_CONTROL
+4 },
54 { "f0", NULL
, OPERAND_FFLAG
+0 },
55 { "f1", NULL
, OPERAND_FFLAG
+1 },
56 { "iba", NULL
, OPERAND_CONTROL
+14 },
57 { "link", "r13", OPERAND_GPR
+13 },
58 { "mod_e", NULL
, OPERAND_CONTROL
+11 },
59 { "mod_s", NULL
, OPERAND_CONTROL
+10 },
60 { "pc", NULL
, OPERAND_CONTROL
+2 },
61 { "psw", NULL
, OPERAND_CONTROL
+0 },
62 { "r0", NULL
, OPERAND_GPR
+0 },
63 { "r0-r1", NULL
, OPERAND_GPR
+0},
64 { "r1", NULL
, OPERAND_GPR
+1 },
65 { "r1", NULL
, OPERAND_GPR
+1 },
66 { "r10", NULL
, OPERAND_GPR
+10 },
67 { "r10-r11", NULL
, OPERAND_GPR
+10 },
68 { "r11", NULL
, OPERAND_GPR
+11 },
69 { "r12", NULL
, OPERAND_GPR
+12 },
70 { "r12-r13", NULL
, OPERAND_GPR
+12 },
71 { "r13", NULL
, OPERAND_GPR
+13 },
72 { "r14", NULL
, OPERAND_GPR
+14 },
73 { "r14-r15", NULL
, OPERAND_GPR
+14 },
74 { "r15", "sp", OPERAND_SP
|(OPERAND_GPR
+15) },
75 { "r2", NULL
, OPERAND_GPR
+2 },
76 { "r2-r3", NULL
, OPERAND_GPR
+2 },
77 { "r3", NULL
, OPERAND_GPR
+3 },
78 { "r4", NULL
, OPERAND_GPR
+4 },
79 { "r4-r5", NULL
, OPERAND_GPR
+4 },
80 { "r5", NULL
, OPERAND_GPR
+5 },
81 { "r6", NULL
, OPERAND_GPR
+6 },
82 { "r6-r7", NULL
, OPERAND_GPR
+6 },
83 { "r7", NULL
, OPERAND_GPR
+7 },
84 { "r8", NULL
, OPERAND_GPR
+8 },
85 { "r8-r9", NULL
, OPERAND_GPR
+8 },
86 { "r9", NULL
, OPERAND_GPR
+9 },
87 { "rpt_c", NULL
, OPERAND_CONTROL
+7 },
88 { "rpt_e", NULL
, OPERAND_CONTROL
+9 },
89 { "rpt_s", NULL
, OPERAND_CONTROL
+8 },
90 { "sp", NULL
, OPERAND_SP
|(OPERAND_GPR
+15) },
96 return (sizeof(d10v_predefined_registers
) / sizeof(struct pd_reg
));
99 const struct d10v_operand d10v_operands
[] =
103 #define RSRC (UNUSED + 1)
104 { 4, 1, OPERAND_GPR
|OPERAND_REG
},
105 #define RSRC_SP (RSRC + 1)
106 { 4, 1, OPERAND_SP
|OPERAND_GPR
|OPERAND_REG
},
107 #define RSRC_NOSP (RSRC_SP + 1)
108 { 4, 1, OPERAND_NOSP
|OPERAND_GPR
|OPERAND_REG
},
109 #define RDST (RSRC_NOSP + 1)
110 { 4, 5, OPERAND_DEST
|OPERAND_GPR
|OPERAND_REG
},
111 #define ASRC (RDST + 1)
112 { 1, 4, OPERAND_ACC0
|OPERAND_ACC1
|OPERAND_REG
},
113 #define ASRC0ONLY (ASRC + 1)
114 { 1, 4, OPERAND_ACC0
|OPERAND_REG
},
115 #define ADST (ASRC0ONLY + 1)
116 { 1, 8, OPERAND_DEST
|OPERAND_ACC0
|OPERAND_ACC1
|OPERAND_REG
},
117 #define RSRCE (ADST + 1)
118 { 4, 1, OPERAND_EVEN
|OPERAND_GPR
|OPERAND_REG
},
119 #define RDSTE (RSRCE + 1)
120 { 4, 5, OPERAND_EVEN
|OPERAND_DEST
|OPERAND_GPR
|OPERAND_REG
},
121 #define NUM16 (RDSTE + 1)
122 { 16, 0, OPERAND_NUM
|OPERAND_SIGNED
},
123 #define NUM3 (NUM16 + 1) /* rac, rachi */
124 { 3, 1, OPERAND_NUM
|OPERAND_SIGNED
|RESTRICTED_NUM3
},
125 #define NUM4 (NUM3 + 1)
126 { 4, 1, OPERAND_NUM
|OPERAND_SIGNED
},
127 #define UNUM4 (NUM4 + 1)
128 { 4, 1, OPERAND_NUM
},
129 #define UNUM4S (UNUM4 + 1) /* addi, slli, srai, srli, subi */
130 { 4, 1, OPERAND_NUM
|OPERAND_SHIFT
},
131 #define UNUM8 (UNUM4S + 1) /* repi */
132 { 8, 16, OPERAND_NUM
},
133 #define UNUM16 (UNUM8 + 1) /* cmpui */
134 { 16, 0, OPERAND_NUM
},
135 #define ANUM16 (UNUM16 + 1)
136 { 16, 0, OPERAND_ADDR
|OPERAND_SIGNED
},
137 #define ANUM8 (ANUM16 + 1)
138 { 8, 0, OPERAND_ADDR
|OPERAND_SIGNED
},
139 #define ASRC2 (ANUM8 + 1)
140 { 1, 8, OPERAND_ACC0
|OPERAND_ACC1
|OPERAND_REG
},
141 #define RSRC2 (ASRC2 + 1)
142 { 4, 5, OPERAND_GPR
|OPERAND_REG
},
143 #define RSRC2E (RSRC2 + 1)
144 { 4, 5, OPERAND_GPR
|OPERAND_REG
|OPERAND_EVEN
},
145 #define ASRC0 (RSRC2E + 1)
146 { 1, 0, OPERAND_ACC0
|OPERAND_ACC1
|OPERAND_REG
},
147 #define ADST0 (ASRC0 + 1)
148 { 1, 0, OPERAND_ACC0
|OPERAND_ACC1
|OPERAND_REG
|OPERAND_DEST
},
149 #define FFSRC (ADST0 + 1)
150 { 2, 1, OPERAND_REG
| OPERAND_FFLAG
},
151 #define CFSRC (FFSRC + 1)
152 { 2, 1, OPERAND_REG
| OPERAND_CFLAG
},
153 #define FDST (CFSRC + 1)
154 { 1, 5, OPERAND_REG
| OPERAND_FFLAG
| OPERAND_DEST
},
155 #define ATSIGN (FDST + 1)
156 { 0, 0, OPERAND_ATSIGN
},
157 #define ATPAR (ATSIGN + 1) /* "@(" */
158 { 0, 0, OPERAND_ATPAR
},
159 #define PLUS (ATPAR + 1) /* postincrement */
160 { 0, 0, OPERAND_PLUS
},
161 #define MINUS (PLUS + 1) /* postdecrement */
162 { 0, 0, OPERAND_MINUS
},
163 #define ATMINUS (MINUS + 1) /* predecrement */
164 { 0, 0, OPERAND_ATMINUS
},
165 #define CSRC (ATMINUS + 1) /* control register */
166 { 4, 1, OPERAND_REG
|OPERAND_CONTROL
},
167 #define CDST (CSRC + 1) /* control register */
168 { 4, 5, OPERAND_REG
|OPERAND_CONTROL
|OPERAND_DEST
},
171 const struct d10v_opcode d10v_opcodes
[] = {
172 { "abs", SHORT_2
, 1, EITHER
, PAR
|WF0
, 0x4607, 0x7e1f, { RDST
} },
173 { "abs", SHORT_2
, 1, IU
, PAR
|WF0
, 0x5607, 0x7eff, { ADST
} },
174 { "add", SHORT_2
, 1, EITHER
, PAR
|WCAR
, 0x0200, 0x7e01, { RDST
, RSRC
} },
175 { "add", SHORT_2
, 1, IU
, PAR
, 0x1201, 0x7ee3, { ADST
, RSRCE
} },
176 { "add", SHORT_2
, 1, IU
, PAR
, 0x1203, 0x7eef, { ADST
, ASRC
} },
177 { "add2w", SHORT_2
, 2, IU
, PAR
|WCAR
, 0x1200, 0x7e23, { RDSTE
, RSRCE
} },
178 { "add3", LONG_L
, 1, MU
, SEQ
|WCAR
, 0x1000000, 0x3f000000, { RDST
, RSRC
, NUM16
} },
179 { "addac3", LONG_R
, 1, IU
, SEQ
, 0x17000200, 0x3ffffe22, { RDSTE
, RSRCE
, ASRC0
} },
180 { "addac3", LONG_R
, 1, IU
, SEQ
, 0x17000202, 0x3ffffe2e, { RDSTE
, ASRC
, ASRC0
} },
181 { "addac3s", LONG_R
, 1, IU
, SEQ
, 0x17001200, 0x3ffffe22, { RDSTE
, RSRCE
, ASRC0
} },
182 { "addac3s", LONG_R
, 1, IU
, SEQ
, 0x17001202, 0x3ffffe2e, { RDSTE
, ASRC
, ASRC0
} },
183 { "addi", SHORT_2
, 1, EITHER
, PAR
|WCAR
, 0x201, 0x7e01, { RDST
, UNUM4S
} },
184 { "and", SHORT_2
, 1, EITHER
, PAR
, 0xc00, 0x7e01, { RDST
, RSRC
} },
185 { "and3", LONG_L
, 1, MU
, SEQ
, 0x6000000, 0x3f000000, { RDST
, RSRC
, NUM16
} },
186 { "bclri", SHORT_2
, 1, IU
, PAR
, 0xc01, 0x7e01, { RDST
, UNUM4
} },
187 { "bl", OPCODE_FAKE
, 0, 0, 0, 0, 0, { 0, 8, 16, 0 } },
188 { "bl.s", SHORT_B
, 3, MU
, ALONE
|BRANCH_LINK
|PAR
, 0x4900, 0x7f00, { ANUM8
} },
189 { "bl.l", LONG_B
, 3, MU
, BRANCH_LINK
|SEQ
, 0x24800000, 0x3fff0000, { ANUM16
} },
190 { "bnoti", SHORT_2
, 1, IU
, PAR
, 0xa01, 0x7e01, { RDST
, UNUM4
} },
191 { "bra", OPCODE_FAKE
, 0, 0, 0, 0, 0, { 0, 8, 16, 0 } },
192 { "bra.s", SHORT_B
, 3, MU
, ALONE
|BRANCH
|PAR
, 0x4800, 0x7f00, { ANUM8
} },
193 { "bra.l", LONG_B
, 3, MU
, BRANCH
|SEQ
, 0x24000000, 0x3fff0000, { ANUM16
} },
194 { "brf0f", OPCODE_FAKE
, 0, 0, 0, 0, 0, { 0, 8, 16, 0 } },
195 { "brf0f.s", SHORT_B
, 3, MU
, BRANCH
|PAR
|RF0
, 0x4a00, 0x7f00, { ANUM8
} },
196 { "brf0f.l", LONG_B
, 3, MU
, SEQ
, 0x25000000, 0x3fff0000, { ANUM16
} },
197 { "brf0t", OPCODE_FAKE
, 0, 0, 0, 0, 0, { 0, 8, 16, 0 } },
198 { "brf0t.s", SHORT_B
, 3, MU
, BRANCH
|PAR
|RF0
, 0x4b00, 0x7f00, { ANUM8
} },
199 { "brf0t.l", LONG_B
, 3, MU
, SEQ
, 0x25800000, 0x3fff0000, { ANUM16
} },
200 { "bseti", SHORT_2
, 1, IU
, PAR
, 0x801, 0x7e01, { RDST
, UNUM4
} },
201 { "btsti", SHORT_2
, 1, IU
, PAR
|WF0
, 0xe01, 0x7e01, { RSRC2
, UNUM4
} },
202 { "clrac", SHORT_2
, 1, IU
, PAR
, 0x5601, 0x7eff, { ADST
} },
203 { "cmp", SHORT_2
, 1, EITHER
, PAR
|WF0
, 0x600, 0x7e01, { RSRC2
, RSRC
} },
204 { "cmp", SHORT_2
, 1, IU
, PAR
|WF0
, 0x1603, 0x7eef, { ASRC2
, ASRC
} },
205 { "cmpeq", SHORT_2
, 1, EITHER
, PAR
|WF0
, 0x400, 0x7e01, { RSRC2
, RSRC
} },
206 { "cmpeq", SHORT_2
, 1, IU
, PAR
|WF0
, 0x1403, 0x7eef, { ASRC2
, ASRC
} },
207 { "cmpeqi", OPCODE_FAKE
, 0, 0, 0, 0, 0, { 1, 4, 16, 0 } },
208 { "cmpeqi.s", SHORT_2
, 1, EITHER
, PAR
|WF0
, 0x401, 0x7e01, { RSRC2
, NUM4
} },
209 { "cmpeqi.l", LONG_L
, 1, MU
, SEQ
, 0x2000000, 0x3f0f0000, { RSRC2
, NUM16
} },
210 { "cmpi", OPCODE_FAKE
, 0, 0, 0, 0, 0, { 1, 4, 16, 0 } },
211 { "cmpi.s", SHORT_2
, 1, EITHER
, PAR
|WF0
, 0x601, 0x7e01, { RSRC2
, NUM4
} },
212 { "cmpi.l", LONG_L
, 1, MU
, SEQ
, 0x3000000, 0x3f0f0000, { RSRC2
, NUM16
} },
213 { "cmpu", SHORT_2
, 1, EITHER
, PAR
|WF0
, 0x4600, 0x7e01, { RSRC2
, RSRC
} },
214 { "cmpui", LONG_L
, 1, MU
, SEQ
, 0x23000000, 0x3f0f0000, { RSRC2
, UNUM16
} },
215 { "cpfg", SHORT_2
, 1, MU
, PAR
, 0x4e0f, 0x7fdf, { FDST
, CFSRC
} },
216 { "cpfg", SHORT_2
, 1, MU
, PAR
, 0x4e09, 0x7fd9, { FDST
, FFSRC
} },
217 { "dbt", SHORT_2
, 5, MU
, ALONE
|PAR
, 0x5f20, 0x7fff, { 0 } },
218 { "divs", LONG_L
, 1, BOTH
, SEQ
, 0x14002800, 0x3f10fe21, { RDSTE
, RSRC
} },
219 { "exef0f", SHORT_2
, 1, EITHER
, PARONLY
, 0x4e04, 0x7fff, { 0 } },
220 { "exef0t", SHORT_2
, 1, EITHER
, PARONLY
, 0x4e24, 0x7fff, { 0 } },
221 { "exef1f", SHORT_2
, 1, EITHER
, PARONLY
, 0x4e40, 0x7fff, { 0 } },
222 { "exef1t", SHORT_2
, 1, EITHER
, PARONLY
, 0x4e42, 0x7fff, { 0 } },
223 { "exefaf", SHORT_2
, 1, EITHER
, PARONLY
, 0x4e00, 0x7fff, { 0 } },
224 { "exefat", SHORT_2
, 1, EITHER
, PARONLY
, 0x4e02, 0x7fff, { 0 } },
225 { "exetaf", SHORT_2
, 1, EITHER
, PARONLY
, 0x4e20, 0x7fff, { 0 } },
226 { "exetat", SHORT_2
, 1, EITHER
, PARONLY
, 0x4e22, 0x7fff, { 0 } },
227 { "exp", LONG_R
, 1, IU
, SEQ
, 0x15002a00, 0x3ffffe03, { RDST
, RSRCE
} },
228 { "exp", LONG_R
, 1, IU
, SEQ
, 0x15002a02, 0x3ffffe0f, { RDST
, ASRC
} },
229 { "jl", SHORT_2
, 3, MU
, ALONE
|BRANCH_LINK
|PAR
, 0x4d00, 0x7fe1, { RSRC
} },
230 { "jmp", SHORT_2
, 3, MU
, ALONE
|BRANCH
|PAR
, 0x4c00, 0x7fe1, { RSRC
} },
231 { "ld", LONG_L
, 1, MU
, SEQ
, 0x30000000, 0x3f000000, { RDST
, ATPAR
, NUM16
, RSRC
} },
232 { "ld", SHORT_2
, 1, MU
, PAR
|RMEM
, 0x6401, 0x7e01, { RDST
, ATSIGN
, RSRC
, MINUS
} },
233 { "ld", SHORT_2
, 1, MU
, PAR
|RMEM
, 0x6001, 0x7e01, { RDST
, ATSIGN
, RSRC
, PLUS
} },
234 { "ld", SHORT_2
, 1, MU
, PAR
|RMEM
, 0x6000, 0x7e01, { RDST
, ATSIGN
, RSRC
} },
235 { "ld", LONG_L
, 1, MU
, SEQ
, 0x32010000, 0x3f0f0000, { RDST
, ATSIGN
, NUM16
} },
236 { "ld2w", LONG_L
, 1, MU
, SEQ
, 0x31000000, 0x3f100000, { RDSTE
, ATPAR
, NUM16
, RSRC
} },
237 { "ld2w", SHORT_2
, 1, MU
, PAR
|RMEM
, 0x6601, 0x7e21, { RDSTE
, ATSIGN
, RSRC
, MINUS
} },
238 { "ld2w", SHORT_2
, 1, MU
, PAR
|RMEM
, 0x6201, 0x7e21, { RDSTE
, ATSIGN
, RSRC
, PLUS
} },
239 { "ld2w", SHORT_2
, 1, MU
, PAR
|RMEM
, 0x6200, 0x7e21, { RDSTE
, ATSIGN
, RSRC
} },
240 { "ld2w", LONG_L
, 1, MU
, SEQ
, 0x33010000, 0x3f1f0000, { RDSTE
, ATSIGN
, NUM16
} },
241 { "ldb", LONG_L
, 1, MU
, SEQ
, 0x38000000, 0x3f000000, { RDST
, ATPAR
, NUM16
, RSRC
} },
242 { "ldb", SHORT_2
, 1, MU
, PAR
|RMEM
, 0x7000, 0x7e01, { RDST
, ATSIGN
, RSRC
} },
243 { "ldi", OPCODE_FAKE
, 0, 0, 0, 0, 0, { 1, 4, 16, 0 } },
244 { "ldi.s", SHORT_2
, 1, EITHER
, PAR
|RMEM
, 0x4001, 0x7e01 , { RDST
, NUM4
} },
245 { "ldi.l", LONG_L
, 1, MU
, SEQ
, 0x20000000, 0x3f0f0000, { RDST
, NUM16
} },
246 { "ldub", LONG_L
, 1, MU
, SEQ
, 0x39000000, 0x3f000000, { RDST
, ATPAR
, NUM16
, RSRC
} },
247 { "ldub", SHORT_2
, 1, MU
, PAR
|RMEM
, 0x7200, 0x7e01, { RDST
, ATSIGN
, RSRC
} },
248 { "mac", SHORT_2
, 1, IU
, PAR
, 0x2a00, 0x7e00, { ADST0
, RSRC2
, RSRC
} },
249 { "macsu", SHORT_2
, 1, IU
, PAR
, 0x1a00, 0x7e00, { ADST0
, RSRC2
, RSRC
} },
250 { "macu", SHORT_2
, 1, IU
, PAR
, 0x3a00, 0x7e00, { ADST0
, RSRC2
, RSRC
} },
251 { "max", SHORT_2
, 1, IU
, PAR
|WF0
, 0x2600, 0x7e01, { RDST
, RSRC
} },
252 { "max", SHORT_2
, 1, IU
, PAR
|WF0
, 0x3600, 0x7ee3, { ADST
, RSRCE
} },
253 { "max", SHORT_2
, 1, IU
, PAR
|WF0
, 0x3602, 0x7eef, { ADST
, ASRC
} },
254 { "min", SHORT_2
, 1, IU
, PAR
|WF0
, 0x2601, 0x7e01 , { RDST
, RSRC
} },
255 { "min", SHORT_2
, 1, IU
, PAR
|WF0
, 0x3601, 0x7ee3 , { ADST
, RSRCE
} },
256 { "min", SHORT_2
, 1, IU
, PAR
|WF0
, 0x3603, 0x7eef, { ADST
, ASRC
} },
257 { "msb", SHORT_2
, 1, IU
, PAR
, 0x2800, 0x7e00, { ADST0
, RSRC2
, RSRC
} },
258 { "msbsu", SHORT_2
, 1, IU
, PAR
, 0x1800, 0x7e00, { ADST0
, RSRC2
, RSRC
} },
259 { "msbu", SHORT_2
, 1, IU
, PAR
, 0x3800, 0x7e00, { ADST0
, RSRC2
, RSRC
} },
260 { "mul", SHORT_2
, 1, IU
, PAR
, 0x2e00, 0x7e01 , { RDST
, RSRC
} },
261 { "mulx", SHORT_2
, 1, IU
, PAR
, 0x2c00, 0x7e00, { ADST0
, RSRC2
, RSRC
} },
262 { "mulxsu", SHORT_2
, 1, IU
, PAR
, 0x1c00, 0x7e00, { ADST0
, RSRC2
, RSRC
} },
263 { "mulxu", SHORT_2
, 1, IU
, PAR
, 0x3c00, 0x7e00, { ADST0
, RSRC2
, RSRC
} },
264 { "mv", SHORT_2
, 1, EITHER
, PAR
, 0x4000, 0x7e01, { RDST
, RSRC
} },
265 { "mv2w", SHORT_2
, 1, IU
, PAR
, 0x5000, 0x7e23, { RDSTE
, RSRCE
} },
266 { "mv2wfac", SHORT_2
, 1, IU
, PAR
, 0x3e00, 0x7e2f, { RDSTE
, ASRC
} },
267 { "mv2wtac", SHORT_2
, 1, IU
, PAR
, 0x3e01, 0x7ee3, { RSRCE
, ADST
} },
268 { "mvac", SHORT_2
, 1, IU
, PAR
, 0x3e03, 0x7eef, { ADST
, ASRC
} },
269 { "mvb", SHORT_2
, 1, IU
, PAR
, 0x5400, 0x7e01, { RDST
, RSRC
} },
270 { "mvf0f", SHORT_2
, 1, EITHER
, PAR
|RF0
, 0x4400, 0x7e01, { RDST
, RSRC
} },
271 { "mvf0t", SHORT_2
, 1, EITHER
, PAR
|RF0
, 0x4401, 0x7e01, { RDST
, RSRC
} },
272 { "mvfacg", SHORT_2
, 1, IU
, PAR
, 0x1e04, 0x7e0f, { RDST
, ASRC
} },
273 { "mvfachi", SHORT_2
, 1, IU
, PAR
, 0x1e00, 0x7e0f, { RDST
, ASRC
} },
274 { "mvfaclo", SHORT_2
, 1, IU
, PAR
, 0x1e02, 0x7e0f, { RDST
, ASRC
} },
275 { "mvfc", SHORT_2
, 1, MU
, PAR
, 0x5200, 0x7e01, { RDST
, CSRC
} },
276 { "mvtacg", SHORT_2
, 1, IU
, PAR
, 0x1e41, 0x7ee1, { RSRC
, ADST
} },
277 { "mvtachi", SHORT_2
, 1, IU
, PAR
, 0x1e01, 0x7ee1, { RSRC
, ADST
} },
278 { "mvtaclo", SHORT_2
, 1, IU
, PAR
, 0x1e21, 0x7ee1, { RSRC
, ADST
} },
279 { "mvtc", SHORT_2
, 1, MU
, PAR
, 0x5600, 0x7e01, { RSRC
, CDST
} },
280 { "mvub", SHORT_2
, 1, IU
, PAR
, 0x5401, 0x7e01, { RDST
, RSRC
} },
281 { "neg", SHORT_2
, 1, EITHER
, PAR
, 0x4605, 0x7e1f, { RDST
} },
282 { "neg", SHORT_2
, 1, IU
, PAR
, 0x5605, 0x7eff, { ADST
} },
283 { "nop", SHORT_2
, 1, EITHER
, PAR
, 0x5e00, 0x7fff, { 0 } },
284 { "not", SHORT_2
, 1, EITHER
, PAR
, 0x4603, 0x7e1f, { RDST
} },
285 { "or", SHORT_2
, 1, EITHER
, PAR
, 0x800, 0x7e01, { RDST
, RSRC
} },
286 { "or3", LONG_L
, 1, MU
, SEQ
, 0x4000000, 0x3f000000, { RDST
, RSRC
, NUM16
} },
287 /* Special case. sac&sachi must occur before rac&rachi because they have
288 intersecting masks! The masks for rac&rachi will match sac&sachi but
289 not the other way around.
291 { "sac", SHORT_2
, 1, IU
, PAR
|RF0
|WF0
, 0x5209, 0x7e2f, { RDSTE
, ASRC
} },
292 { "sachi", SHORT_2
, 1, IU
, PAR
|RF0
|WF0
, 0x4209, 0x7e0f, { RDST
, ASRC
} },
293 { "rac", SHORT_2
, 1, IU
, PAR
|WF0
, 0x5201, 0x7e21, { RDSTE
, ASRC0ONLY
, NUM3
} },
294 { "rachi", SHORT_2
, 1, IU
, PAR
|WF0
, 0x4201, 0x7e01, { RDST
, ASRC
, NUM3
} },
295 { "rep", LONG_L
, 2, MU
, SEQ
, 0x27000000, 0x3ff00000, { RSRC
, ANUM16
} },
296 { "repi", LONG_L
, 2, MU
, SEQ
, 0x2f000000, 0x3f000000, { UNUM8
, ANUM16
} },
297 { "rtd", SHORT_2
, 3, MU
, ALONE
|PAR
, 0x5f60, 0x7fff, { 0 } },
298 { "rte", SHORT_2
, 3, MU
, ALONE
|PAR
, 0x5f40, 0x7fff, { 0 } },
299 { "sadd", SHORT_2
, 1, IU
, PAR
, 0x1223, 0x7eef, { ADST
, ASRC
} },
300 { "setf0f", SHORT_2
, 1, MU
, PAR
|RF0
, 0x4611, 0x7e1f, { RDST
} },
301 { "setf0t", SHORT_2
, 1, MU
, PAR
|RF0
, 0x4613, 0x7e1f, { RDST
} },
302 { "slae", SHORT_2
, 1, IU
, PAR
, 0x3220, 0x7ee1, { ADST
, RSRC
} },
303 { "sleep", SHORT_2
, 1, MU
, ALONE
|PAR
, 0x5fc0, 0x7fff, { 0 } },
304 { "sll", SHORT_2
, 1, IU
, PAR
, 0x2200, 0x7e01, { RDST
, RSRC
} },
305 { "sll", SHORT_2
, 1, IU
, PAR
, 0x3200, 0x7ee1, { ADST
, RSRC
} },
306 { "slli", SHORT_2
, 1, IU
, PAR
, 0x2201, 0x7e01, { RDST
, UNUM4
} },
307 { "slli", SHORT_2
, 1, IU
, PAR
, 0x3201, 0x7ee1, { ADST
, UNUM4S
} },
308 { "slx", SHORT_2
, 1, IU
, PAR
|RF0
, 0x460b, 0x7e1f, { RDST
} },
309 { "sra", SHORT_2
, 1, IU
, PAR
, 0x2400, 0x7e01, { RDST
, RSRC
} },
310 { "sra", SHORT_2
, 1, IU
, PAR
, 0x3400, 0x7ee1, { ADST
, RSRC
} },
311 { "srai", SHORT_2
, 1, IU
, PAR
, 0x2401, 0x7e01, { RDST
, UNUM4
} },
312 { "srai", SHORT_2
, 1, IU
, PAR
, 0x3401, 0x7ee1, { ADST
, UNUM4S
} },
313 { "srl", SHORT_2
, 1, IU
, PAR
, 0x2000, 0x7e01, { RDST
, RSRC
} },
314 { "srl", SHORT_2
, 1, IU
, PAR
, 0x3000, 0x7ee1, { ADST
, RSRC
} },
315 { "srli", SHORT_2
, 1, IU
, PAR
, 0x2001, 0x7e01, { RDST
, UNUM4
} },
316 { "srli", SHORT_2
, 1, IU
, PAR
, 0x3001, 0x7ee1, { ADST
, UNUM4S
} },
317 { "srx", SHORT_2
, 1, IU
, PAR
|RF0
, 0x4609, 0x7e1f, { RDST
} },
318 { "st", LONG_L
, 1, MU
, SEQ
, 0x34000000, 0x3f000000, { RSRC2
, ATPAR
, NUM16
, RSRC
} },
319 { "st", SHORT_2
, 1, MU
, PAR
|WMEM
, 0x6800, 0x7e01, { RSRC2
, ATSIGN
, RSRC
} },
320 { "st", SHORT_2
, 1, MU
, PAR
|WMEM
, 0x6c1f, 0x7e1f, { RSRC2
, ATMINUS
, RSRC_SP
} },
321 { "st", SHORT_2
, 1, MU
, PAR
|WMEM
, 0x6801, 0x7e01, { RSRC2
, ATSIGN
, RSRC
, PLUS
} },
322 { "st", SHORT_2
, 1, MU
, PAR
|WMEM
, 0x6c01, 0x7e01, { RSRC2
, ATSIGN
, RSRC_NOSP
, MINUS
} },
323 { "st", LONG_L
, 1, MU
, SEQ
, 0x36010000, 0x3f0f0000, { RSRC2
, ATSIGN
, NUM16
} },
324 { "st2w", LONG_L
, 1, MU
, SEQ
, 0x35000000, 0x3f100000, { RSRC2E
, ATPAR
, NUM16
, RSRC
} },
325 { "st2w", SHORT_2
, 1, MU
, PAR
|WMEM
, 0x6a00, 0x7e21, { RSRC2E
, ATSIGN
, RSRC
} },
326 { "st2w", SHORT_2
, 1, MU
, PAR
|WMEM
, 0x6e1f, 0x7e3f, { RSRC2E
, ATMINUS
, RSRC_SP
} },
327 { "st2w", SHORT_2
, 1, MU
, PAR
|WMEM
, 0x6a01, 0x7e21, { RSRC2E
, ATSIGN
, RSRC
, PLUS
} },
328 { "st2w", SHORT_2
, 1, MU
, PAR
|WMEM
, 0x6e01, 0x7e21, { RSRC2E
, ATSIGN
, RSRC_NOSP
, MINUS
} },
329 { "st2w", LONG_L
, 1, MU
, SEQ
, 0x37010000, 0x3f1f0000, { RSRC2E
, ATSIGN
, NUM16
} },
330 { "stb", LONG_L
, 1, MU
, SEQ
, 0x3c000000, 0x3f000000, { RSRC2
, ATPAR
, NUM16
, RSRC
} },
331 { "stb", SHORT_2
, 1, MU
, PAR
|WMEM
, 0x7800, 0x7e01, { RSRC2
, ATSIGN
, RSRC
} },
332 { "stop", SHORT_2
, 1, MU
, ALONE
|PAR
, 0x5fe0, 0x7fff, { 0 } },
333 { "sub", SHORT_2
, 1, EITHER
, PAR
|WCAR
, 0x0, 0x7e01, { RDST
, RSRC
} },
334 { "sub", SHORT_2
, 1, IU
, PAR
, 0x1001, 0x7ee3, { ADST
, RSRC
} },
335 { "sub", SHORT_2
, 1, IU
, PAR
, 0x1003, 0x7eef, { ADST
, ASRC
} },
336 { "sub2w", SHORT_2
, 1, IU
, PAR
|WCAR
, 0x1000, 0x7e23, { RDSTE
, RSRCE
} },
337 { "subac3", LONG_R
, 1, IU
, SEQ
, 0x17000000, 0x3ffffe22, { RDSTE
, RSRCE
, ASRC0
} },
338 { "subac3", LONG_R
, 1, IU
, SEQ
, 0x17000002, 0x3ffffe2e, { RDSTE
, ASRC
, ASRC0
} },
339 { "subac3s", LONG_R
, 1, IU
, SEQ
, 0x17001000, 0x3ffffe22, { RDSTE
, RSRCE
, ASRC0
} },
340 { "subac3s", LONG_R
, 1, IU
, SEQ
, 0x17001002, 0x3ffffe2e, { RDSTE
, ASRC
, ASRC0
} },
341 { "subi", SHORT_2
, 1, EITHER
, PAR
, 0x1, 0x7e01, { RDST
, UNUM4S
} },
342 { "trap", SHORT_2
, 5, MU
, ALONE
|BRANCH_LINK
|PAR
, 0x5f00, 0x7fe1, { UNUM4
} },
343 { "tst0i", LONG_L
, 1, MU
, SEQ
, 0x7000000, 0x3f0f0000, { RSRC2
, NUM16
} },
344 { "tst1i", LONG_L
, 1, MU
, SEQ
, 0xf000000, 0x3f0f0000, { RSRC2
, NUM16
} },
345 { "wait", SHORT_2
, 1, MU
, ALONE
|PAR
, 0x5f80, 0x7fff, { 0 } },
346 { "xor", SHORT_2
, 1, EITHER
, PAR
, 0xa00, 0x7e01, { RDST
, RSRC
} },
347 { "xor3", LONG_L
, 1, MU
, SEQ
, 0x5000000, 0x3f000000, { RDST
, RSRC
, NUM16
} },
348 { 0, 0, 0, 0, 0, 0, 0, { 0 } },